Ipratropium, a drug occasionally used for asthma, prevents airway muscle contraction and increases airflow to the lungs. Its success in combating the air temperature response suggests that hot, humid air triggers asthma symptoms by activating airway sensory nerves that are sensitive to an increase in temperature.

“We know that breathing cold, dry air induces airway constriction in asthmatics,” said Don Hayes, MD, medical director of the Lung and Heart-Lung Transplant Program at Nationwide Children’s Hospital.

“But the effects that temperature increases have on airway function in these patients are generally overlooked. We know very little about the mechanisms that cause symptoms when asthmatic patients are exposed to hot, humid air.”

Dr Hayes and his colleagues at the University of Kentucky Medical Center (where Dr Hayes was on staff prior to joining Nationwide Children’s late last year) enrolled patients with mild asthma and healthy controls in a study to assess their pulmonary reaction to hot, humid air.

Humid air also triggers consistent coughs

Six asthmatic patients (ranging from 21 years of age to 26) and six healthy subjects (between 19 and 46) were asked to breathe into a device designed to deliver air at certain desired temperatures and humidity levels.

The device produced a humidified gas mixture of air either hot or room temperature. Subjects breathed via a mouthpiece into this free stream of air for four minutes and were asked to pant.

Investigators measured participants’ airway resistance before and for 16 minutes immediately following the challenge. They also measured body temperature, heart rate, arterial blood pressure and oxygen saturation before and afterward.

Results showed that breathing of hot, humid air triggered an immediate increase in airway resistance in patients with mild asthma, but caused either only a very small or no response in healthy subjects. Breathing hot, humid air also triggered consistent coughs in those with asthma. When the asthmatic participants used an ipratropium aerosol before the challenge, they did not experience airway constriction.

“We don’t fully understand the mechanisms underlying these responses,” said Dr Hayes, who is the study’s primary author.

Air temperatures levels important in asthma

A recent study by the same research group found that airway sensory nerves called C-fiber nerves were activated with the temperature within the chest was elevated to about 102 degrees Fahrenheit.

These data were developed in Lu-Yuan Lee’s, MD, laboratory at the University of Kentucky using animal models. Dr Lee’s laboratory has a 20-year history of National Institutes of Health funding to study C-fiber sensory nerves in the lung.

“When C-fiber sensory nerves are stimulated, a number of pulmonary defence reflex responses can occur, including cough and bronchoconstriction,” said Dr Hayes, also a faculty member at The Ohio State University College of Medicine.

“This study is a good example of how we can translate findings from a research laboratory into a better understanding and more in-depth knowledge about how to prevent and treat diseases in patients,” said Dr Lee.

Dr Hayes says further research is needed to completely understand how patients’ bodies react to hot and humid air and is planning such studies at Nationwide Children’s.

Overall, he says that this data provides evidence to support that ambient air temperatures and humidity levels are very important in asthma and this research introduces potential new drug targets for the treatment of asthma.

Ask the Expert

Professor Keertan Dheda has received of several prestigious awards including the 2014 Oppenheimer Award, and has published over 160 peer-reviewed papers and holds 3 patents related to new TB diagnostic or infection control technologies.
He serves on the editorial board of the journals PLoS One, the International Journal of Tuberculosis and Lung Disease, American Journal of Respiratory and Critical Medicine, Lancet Respiratory Diseases and Nature Scientific Reports, amongst others.Read his full biography at the University of Cape Town Lung Institute

posted on 13-10-2016

posted on 05-10-2016

posted on 22-09-2016

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